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Modelling Ozone Disinfection to Prevent Covid-19 Transmission

Sam Rolland Orcid Logo, Hamid Tamaddon-Jahromi, Jason Jones Orcid Logo, Alberto Coccarelli Orcid Logo, Igor Sazonov Orcid Logo, Chris Kershaw, Chedly Tizaoui Orcid Logo, Peter Holliman Orcid Logo, David Worsley Orcid Logo, Hywel Thomas Orcid Logo, Perumal Nithiarasu Orcid Logo

Mathematics in Industry, Volume: 39, Pages: 535 - 541

Swansea University Authors: Sam Rolland Orcid Logo, Hamid Tamaddon-Jahromi, Jason Jones Orcid Logo, Alberto Coccarelli Orcid Logo, Igor Sazonov Orcid Logo, Chris Kershaw, Chedly Tizaoui Orcid Logo, Peter Holliman Orcid Logo, David Worsley Orcid Logo, Hywel Thomas Orcid Logo, Perumal Nithiarasu Orcid Logo

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DOI (Published version): 10.1007/978-3-031-11818-0_69

Abstract

A modelling approach is proposed to study ozone distribution and destruction in indoor spaces. The level of ozone gas concentration in the air, confined within an indoor space during an ozone-based disinfection process, was modelled. The emission and removal of ozone from the air volume were carried...

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Published in: Mathematics in Industry
ISBN: 9783031118173 9783031118180
ISSN: 1612-3956 2198-3283
Published: Cham Springer International Publishing 2012
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URI: https://cronfa.swan.ac.uk/Record/cronfa62181
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Abstract: A modelling approach is proposed to study ozone distribution and destruction in indoor spaces. The level of ozone gas concentration in the air, confined within an indoor space during an ozone-based disinfection process, was modelled. The emission and removal of ozone from the air volume were carried out using a generator located in the middle of the room. The computational fluid dynamics (CFD) model proposed accounts for ozone generation and decay kinetics, and buoyancy variations in the airflow. This framework was validated against experimental measurements at different locations in the room during the disinfection cycle. The model was then applied to a more challenging environment and demonstrated the suitability of ozone circulation as a disinfection process. The study also highlights the need for a well-controlled ozone removal process.
College: Faculty of Science and Engineering
Start Page: 535
End Page: 541

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